DE2622740A1 - Discharge balloon for steam safety valve outlet - has projecting flanges round discharge slots to direct steam flow - Google Patents

Abstract

The safety valve of a steam system in a nuclear power station has a discharge pipe which dips into a trough of water to condense the discharged steam. There is a balloon on the end of the pipe to give a large discharge area. The balloon is hollow and has a series of slots in its wall arranged vertically above each other. Several such rows are arranged in circles round the balloon. Each opening has projecting flanges which form a directional nozzle round it. The steam is thus discharged radially out of each slot to mix effectively and condense in the surrounding water. The reaction of each jet is absorbed by a corresp. jet diametrically opposite.

Description

Device for condensing larger

Steam quantities The invention relates to a device for Condensation of large amounts of steam coming from the blow-out line of a safety or Relief valve or from another line of a steam generator, in particular of a nuclear power plant is blown into a water-filled condensation chamber into which the blow-out line protrudes, the steam outlet via a provided at the end of the blow-out line, opposite the blow-out line in diameter larger hollow sphere provided with outlet openings takes place.

Particularly in the case of nuclear power plants, there is a need to use the the safety valve does not allow steam to be blown out of the primary steam circuit to let the free atmosphere escape but to condense. But also with other steam generators, the exhaust steam condenses in water Use.

However, blowing a large amount of steam freely into water brings about Problems-with-yourself.

It has already been suggested at the end of the protruding into the water Provide a hollow ball and the steam via individual, of the To blow the ball branch pipe socket into the water. The distribution of steam and the balancing of forces could still cause difficulties here.

The object of the invention is to design the condensing device in such a way that that the steam quickly on its injection path in the water Condensed and the outward reaction forces that occur in this process are largely compensated for will.

The solution to this problem is seen according to the invention in that the jacket of the blow-out ball except for the inlet cross-section of the Au Slase line opposite bottom section with a multitude evenly around the spherical jacket distributed around, vertically next to and one above the other, narrow slits is provided and to each slot on the outside of the spherical shell a radial outlet mouthpiece is connected so that it is horizontal around the sphere or approximately horizontally and fan-like diagonally up and down directed steam outlet nozzles result.

By such a fan-like dissolution of the vapor flow to be condensed into a multitude of scnalers, horizontally and diagonally upwards around the blow-out ball and at the bottom of the band-like partial streams of steam emerging from the bottom, the steam is distributed in a small manner and thus in contact with the water over a large area and can be blown on the blow-out paths be cooled relatively quickly to the condensation temperature.

Ensure the exit nozzles provided at the slots here the radial direction of the individual ribbon rays, so that they are star-shaped penetrate into the water side by side and on top of each other.

In addition, the uniform fine resolution of the exit cross-section in a multitude of small, directed slot openings that the reaction forces, when blowing out the steam and especially when blowing out the before the steam is blown out standing water occurs in the ball and in the immersed part of the discharge line, largely against one another because of the symmetrical position of the slots lift. Slight local differences in the outflow conditions in individual cases Outlet nozzles are compensated for by the large number of nozzles, so that the trondensation device works almost vibration-free. Since the opposite the lower floor section of the opening cross-section of the blow-out line If the spherical jacket has no outlet nozzles, the steam cannot go straight down flow out so that the bottom of the condensation chamber remains protected and. in this Area a support of the blow-out ball on the chamber floor can be provided.

Appropriately, the exit mouthpieces with a sharp one Provided the trailing edge so that the escaping steam jet is directed and not can break out immediately to the side or upwards or downwards.

It is also advisable to use the slots in the jacket of the blow-out ball to be arranged close to each other and to several superimposed to the spherical shell circumferential horizontal slot circles, of which one or more Slot circles in the middle area of the spherical jacket and the other slot circles symmetrically above and below the center of the sphere.

This creates a geometrically clear arrangement of the slots guaranteed and the production of the slots in the spherical shell is easier.

It is also suggested that the slots of the middle slot circle or the middle slot circles longer than the slots of the top and bottom Form slit circles so that a larger amount of steam in the horizontal direction is blown into the water chamber and less steam diagonally up and down enters the water trap directed. This allows the usually larger horizontal Expansion of the water chamber over the length and width better for condensation of the Steam can be used.

The outlet nozzles can be manufactured in a structurally simple manner that the exit mouthpieces in cross section are introduced into the spherical shell Slots are adapted and welded from the outside onto the spherical shell.

PUr quantities of steam escaping from the blow-off line of safety valves It is also advantageous to use several smaller ones instead of one safety valve Provide safety valves, each with a smaller blow-out line and slotted ball and these blow-out lines with the Scalitz balls at a corresponding distance in to let the common condensation chamber protrude so that the in each ball occurring reaction forces can be further reduced. A mutual there is no adverse effect on the blow-out balls lying next to one another because of the many partial streams of steam emerging from the slots of the sphere in a fan-like manner dissolve in the water in the shortest possible way.

The invention is illustrated by means of exemplary embodiments in the drawing explained in more detail, namely: FIG. 1 shows a condensing device for the blow-out line of a safety valve with the outlet provided with slits; ekugell Fig. 2 Another slot arrangement for the AusblaseRugel, Fig. 3 shows a detail the spherical shell with two slots on an enlarged scale, Fig. 4 the slot in Cross section along line IV - IV of Fig. 5 and ig. 5 the slot in longitudinal section according to line V - V of FIG. 3.

In the illustrated embodiment, the steam flows out of the Main line 1 via the safety valve 2 into the blow-out line 3, the end section of which 4 protrudes from above into the water-filled condensation chamber 5. To the exit end the blow-out line 4 has a larger diameter blow-out hollow ball 6 welded onto it, whose spherical shell 7 with a plurality of uniformly around the spherical shell distributed, narrow slots 8, 8 'is provided. On each of these slots 8, 8 'is a radially extending outlet mouthpiece on the outside of the spherical jacket 7 9 placed, which is adapted to the slots 8, 8 s in the clear cross section and together forms a steam outlet nozzle lo with the respective slot. These steam outlet nozzles are provided with a sharp exit edge 11 on the exit nozzle 9.

The slots 8, 8 'can be punched into the spherical shell 7, and the outlet nozzles 9 are expediently in the area of the slots the spherical jacket 7 welded on.

In the embodiment according to FIG. 1, they are standing and close to one another arranged slot nozzles lo to several superimposed to the spherical shell 7 circumferential, horizontal slot circles 12, 15 and 14 combined. The two Form middle slot circles 12 above and below the spherical center plane 15 approximately horizontally outwardly directed steam outlet nozzles, while the slot circles 13 and 14 fan-like obliquely upwards and directed downwards and are symmetrical to the center plane 15 of the sphere. The opposite of the confluence cross-section 16 of the blow-out line 4 lying bottom section 17 of the spherical jacket 7 is not provided with slots so that no steam escapes vertically upwards or downwards he follows. This bottom portion 17 is connected to a support 18 which is on Bottom 19 of the condensation chamber 5 is attached. The slots 8 of the two middle ones Slot circles 12 are longer than the slots 8 'of the upper and lower slot circles 13 and 14 designed so that less steam obliquely up and down and more Steam is blown out horizontally. As a result, the water level 20 does not need to high above the Ausblasekugel 6, and also the distance of the Ausblasekugel to Chamber bottom 19 can be kept small.

In the slot arrangement according to FIG. 2, instead of the two rows of slots 12 in the middle area of the spherical jacket 7 only a single middle row of slots 12 'seen in the center of the sphere, and the upper ones directed obliquely upwards and downwards and lower rows of slots 13, 14 are around an additional upper and lower row of slots 14 'extended. In addition, the slots 8bzw.

8 'viewed in the vertical direction, not exactly one below the other, but rather one below the other are offset from one another so that the slots are placed even closer to one another can.

Claims (6)

Claims 1. Device for condensing larger amounts of steam, those from the blow-out line of a safety or relief valve or from another line of a steam generator, in particular a nuclear power plant in a condensation chamber filled with water can be blown into the blow-out line protrudes, with the steam outlet via a blow-out line provided at the end of the compared to the blow-out line, larger in diameter and with outlet openings provided hollow sphere takes place, that is, that the Jacket (7) of the Ausblaseicugel (6) up to the confluence cross-section (16) of the Blow-out line (4) opposite bottom section (17) with a plurality of evenly distributed around the spherical shell, vertically next to and above one another standing narrow slot (8, 8 ') and to each slot (8, 8') a radially extending outlet mouthpiece on the outside of the spherical shell (7) (9) is connected so that it is horizontally or approximately horizontally around the ball Directed and fan-like diagonally upwards and downwards directed Dailpraustsdüsen (lo) result. 2. Condensing device according to claim 1, d a d u r c h g e- -k e n n z e i c h ne t that the exit mouthpieces (9) with a sharp exit edge (11) are provided. ). Condensing device-according to claims 1 and 2, d a -d u r c h e k e n n n z e i c h ne t that the slots (8, 8 ') in the jacket (7) of the blow-out ball (6) close together standing and to several superimposed, around the spherical shell circumferential horizontal slot circles (12, 13, 14) summarized are, of which one or more slotted circles (12) in the central area of the spherical shell (7) and the other slot circles (13, 14) symmetrically to this above and below the center plane of the ball (15). 4. condensing device according to claim 5, d a d u r c h g e -k e n It should be noted that the slots (8) of the middle Schlitzkreisw or Yf of the middle Slot circles (12) longer than the slots (8 ') of the upper and lower slot circles (13, 14) are formed. 5. Condensation installation according to responses 1 to 4, d u r ch it is noted that the outlet mouthpieces (9) in cross section are the in the spherical shell (7) introduced slots (8, 8) adapted and from the outside the spherical jacket are welded on 6. Condensing device according to one of the claims 1 to 5 for steam quantities escaping from the exhaust line of safety valves, d u r c h e k e n n n z e i c h n e t that for the amount of steam to be discharged instead a safety valve several smaller safety valves (2) each with a smaller one Blow-out line (4) and slotted ball (6) are provided and these blow-out lines with the slotted balls at a corresponding distance into the common condensation chamber (5) protrude.